PROPERTIES. TYPICAL RESULTS. TEST PROCEDURE. Tensile strength. 6,000
psi. ASTM D 638. Tensile modulus. 600,000 psi. ASTM D 638. Flexural ...
PROPERTIES
TYPICAL RESULTS
TEST PROCEDURE
Tensile strength
6,000 psi
ASTM D 638
Tensile modulus
600,000 psi
ASTM D 638
Flexural strength
10,000 psi
ASTM D 790
Flexural modulus
1,000,000 psi
ASTM D 790
Elongation
0.5%
ASTM D 638
92 Rockwell "M" Scale
ASTM D 785
Hardness
65 Barcol Impressor
ASTM D 2583
Thermal expansion
2.0 x 10-5 in/in F˚
ASTM D 696
Gloss (60 Gardner)
Between 5 - 20
NEMA LD-3
Color stability
No change-200hrs
NEMA LD-3
Pass Stain resistance
Rating 41
ANSI Z 124
Abrasion resistance
Pass
ANSI Z 124
Boiling water surface resistance
No effect
NEMA LD-3
High temperature resistance
No effect
NEMA LD-3
IZOD Impact resistance (notched)
0.28 ft.lbf/in
ASTM D 256
12.3 mm sheet
144" w/ 1/2 lb ball, No failure
NEMA LD-3
Fungi and Bacterial resistance
No growth
ASTM G 21, G22
Ball drop
Specific gravity Solid colors
1.72
Patterened colors
1.69
ASTM D 792
0.04%, (1/2", 24hrs) Water absorption
0.11%, (1/8", 24hrs)
ASTM D 570
Flammability
Class A / Class 1
UBC 8-1
Flame spread
10
ASTM E 84
Smoke density
10
ASTM E 84
Radiant heat resistance
No visual effect
NEMA LD-3
84.4g (Solid Color)
Pittsburgh Test Protocol
81.8g (Patterned Color)
(LC50 Test)
Toxicity
1. Test method ASTM G 21
(Determining Resistance of Synthetic Polymeric Materials of Fungi) STRAINS: Aspergillus Niger (ATCC 9642) Penicillium Pinophilum (ATCC 11797) Chaetomium Globosum (ATCC 6205) Gliocladium Virens (ATCC 9645) Aureobasidium Pullulans (ATCC 15233) CULTURAL CONDITION: 84.2 +/- 1.8˚F(29 +/- 1˚C), 90%RH, 21 days LIMITATION OBSERVED GROWTH ON SPECIMEN None Trace of growth (Less than 10%) Light Growth (10%-30%) Medium Growth (30%-60%) Heavy Growth (60%-Complete coverage)
RATING 0 1 2 3 4
RATING 0 1 2 3 4
2 WEEKS 0
3 WEEKS 0
2. Test result Zero traces of growth Culture Time Result
0 WEEK 0
1 WEEK 0
1. Test method *ASTM G 22 (Determining Resistance of Plastics to Bacteriai) *STRAINS: Pseudomonas Aeruginosa (ATCC 13388) *CULTURAL CONDITION: 96.8 +/- 1.8˚F(36 +/- 1˚C), 90%RH, 21 days *LIMITATION
OBSERVED GROWTH ON SPECIMEN
RATING
None
0
Trace of growth (Less than 10%)
1
Light Growth (10%-30%)
2
Medium Growth (30%-60%)
3
Heavy Growth (60%-Complete coverage)
4
2. Test result *Zero traces of growth Culture Time Result
0 WEEK 0
1 WEEK 0
2 WEEKS 0
3 WEEKS 0
1. Test method THE UNIVERSITY OF PITTSBURGH TEST PROTOCOL (UPitt) - For Measurement of Acute Lethality of Thermal Decomposition Products of Specimens - The major function of the UPitt laboratory test method is to provide a means of evaluating the lethal toxic potency of thermal decomposition products of test materials. TEST PROCEDURE - The test protocol calls for samples to be subjected to continuously changing temperature conditions starting - The test system generates decomposition products that continuously change in chemical composition as the temperature increase. - Animals are exposed to the decomposition products starting when the test sample loses one percent of its initial weight and continues for 30 min. - The UPitt protocol utilizes rodent (mouse) lethality as the primary source in evaluating the toxicity of combustion atmosphere produced by a material. - Groups of four animals at a time are exposed to the combustion gases generated from different initial quantities of the test material. - This establishes a concentration-response relationship.
- From this relationship, the concentration estimated to produce lethality in 50 percent of the animals within the specified time is obtained by interpolation. - This concentration, commonly termed the LC50, is a measure of the toxic potency of combustion atmosphere. *EVALUATION
- The Building Code of the City of New York requires the materials to be “not more toxic than wood,” which requires a passing LC50 value of greater than or equal to 19.7g.
2. Test result Zero traces of growth TEST SAMPLE
LC50 value
Solid Color
84.4g
Patterned Color
81.8g
Thermal decomposition of Staron® Solid Surfaces were measured at a temperature greater than 300°C (572°F), which is most likely in case of fire. Staron® Solid Surfaces meet the requirements for interior finish material as defined by Title 27, Chapter 1, Subchapter 5, Article 5, of the Building Code of the City of New York.
1. Test method Apply 3 drops of each chemical reagent on the surfaces of Staron® Solid Surfaces Expose the sample for 16 hours; covered with glas plat e and uncovered Check the surface and scrub the surface with a wet Scotch-Brite® Pad and bleaching cleanser such as Ajax®
2. Test Result THE RESIDUE FROM THE FOLLOWING CHEMICAL REAGENTS CAN BE REMOVED WITH A WET SCOTCH-BRITE PAD AND BLEACHING CLEANSER. Acetic acid (10%)
Acetone
Ammonia
Ammonium hydroxide (5,28%)
Amyl acetate
Amyl alcohol
Ball point pen
Benzene
Bleach (household type)
Blood
B-4 body conditioner
Butyl alcohol
Carbon disulfide
Carbon tetrachloride
Citric acid (10%)
Calcium thiocyanate (78%)
Cigarette (nicotine and tar)
Coffee
Cooking oils
Cottonseed oil
Cupra ammonia
Dishwashing liquid/powders
Ethanol
Ethyl acetate
Ethyl ether
Formaldehde
Gasoline
Gentian violet
Grape juice
Hair dyes
Household soaps
Hydrochloric acid (20,30,37%)
Hydrogen peroxide
Iodine (1%)
Ketchup
Lemon juice
Lipstick
Mercurochrome (2%)
Methanol
Methyl ethyl ketone
Methyl orange (1%)
Methyl red (1%)
Mineral oil
Mustard
Nail polish
Naphthalene
N-hexane
Olive oil
Pencil lead
Perchloric acid
Permanent marker pen
Shoe polish
Soapless detergents
Sodium bisulfate
Sodium hydroxide solution (5,10,25,40%)
Soy sauce
Sodium sulfate
Sulfuric acid (25,33,60%)
Sugar (sucrose)
Tea
Sulfuric acid (25,33,60%)
Toluene
Tetrahydrofuran
Urea (6%)
Tomato juice
Vinegar
Uric acid
Wine
Washable inks
Zinc Chloride
Xylene
THE FOLLOWING CHEMICAL REAGENTS MAY AFFECT THE SURFACE WITH MORE SERIOUS DAMAGE, REQUIRING SANDING FOR COMPLETE REMOVAL. FREQUENT AND/OR PROLONGED EXPOSURE TO THESE REAGENTS SHOULD BE AVOIDED. Acetic acid (90,98%) Acid drain cleansers Chlorobenzene Chloroform (100%) Chromic trioxide acid Cresol Dioxane Ethyl acetate Equalizing mix (50/50) Film developer Formic acid (50,90%) Furfural Glacial acetic acid Hydrofluoric acid (48%) Luralite mix (50/50) Methylene chloride based products such as paint removers, brush cleansers and some metal cleansers Nitric acid (25,30,70%) Phenol (40,85%) Phosphoric acid (75,90%) Sulfuric acid (77,96%) Trichloroacetic acid (10,50%) 3M Avagard TM D
1. Test method *ASTM E 84
(Surface Burning Characteristics of Building Materials)
*SAMPLE PREPARATION AND CONDITIONING: Three(3) panels (1/2" thick measuring 2' x 8') were fitted end-to-end to form a 24" x 24'0" sample. Because the sample was self-supporting, no further preparation was necessary. *TEST PROCEDURE: The tunnel was thoroughly pre-heated, using natural gas. When the brick temperature, sensed by a floor thermocouple, had reached the prescribed 105 +/- 5˚F level, the sample was inserted into the tunnel and the test The operation of the tunnel was checked by performing 10 minute test with inorganic board on the day of the test.
*Rating The National Fire Protection Association Life Safety Code 101, Section 6-5.3, "Interior Wall and Ceiling Finish Classification," has means of classifying materials with respect to Flame Spread and Smoke Developed when
FLAME SPERAD
SMOKE DEVELOPED
RATING
0 - 25
0 - 450
Class A
26 - 75
0 - 450
Class B
76 - 225
0 - 450
Class C
ITEM
FLAME SPREAD
SMOKE DEVELOPED
Wallboard, Gypsum
15
0
Wood particle board
155
200
Fiberglass reinforced panels
70
500+
Laminates, Plastic
70
35
Wall covering, Interior
25
15
Hardboard
150
400
2. Test result *Flame spread:10 *Smoke developed:10 *Rating: Class A / Class 1 *Reference
